﻿#pragma once

#include <memory>
#include <functional>
#include <deque>
#include <chrono>
#include <cassert>
#include <cstring>
#include <cmath>

#include <brynet/base/Buffer.hpp>
#include <brynet/base/Timer.hpp>
#include <brynet/base/NonCopyable.hpp>
#include <brynet/base/Any.hpp>
#include <brynet/base/Noexcept.hpp>
#include <brynet/net/SocketLibFunction.hpp>
#include <brynet/net/Channel.hpp>
#include <brynet/net/EventLoop.hpp>
#include <brynet/net/Socket.hpp>
#include <brynet/net/SSLHelper.hpp>

#ifdef BRYNET_USE_OPENSSL

#ifdef  __cplusplus
extern "C" {
#endif
#include <openssl/ssl.h>
#include <openssl/err.h>
#ifdef  __cplusplus
}
#endif

#endif

namespace brynet { namespace net {

    class TcpConnection :   public Channel, 
                            public brynet::base::NonCopyable, 
                            public std::enable_shared_from_this<TcpConnection>
    {
    public:
        using Ptr = std::shared_ptr<TcpConnection>;

        using EnterCallback = std::function<void(Ptr)>;
        using DataCallback = std::function<size_t(const char* buffer, size_t len)>;
        using DisconnectedCallback = std::function<void(Ptr)>;
        using PacketSendedCallback = std::function<void(void)>;

        using PacketPtr = std::shared_ptr<std::string>;

    public:
        Ptr static Create(TcpSocket::Ptr socket, 
            size_t maxRecvBufferSize, 
            EnterCallback&& enterCallback, 
            const EventLoop::Ptr& eventLoop,
            const SSLHelper::Ptr& sslHelper = nullptr)
        {
            class make_shared_enabler : public TcpConnection
            {
            public:
                make_shared_enabler(TcpSocket::Ptr socket,
                    size_t maxRecvBufferSize,
                    EnterCallback&& enterCallback,
                    EventLoop::Ptr eventLoop)
                    :
                    TcpConnection(std::move(socket), 
                        maxRecvBufferSize, 
                        std::move(enterCallback),
                        std::move(eventLoop))
                {}
            };

            const auto isServerSide = socket->isServerSide();
            auto session = std::make_shared<make_shared_enabler>(
                    std::move(socket),
                    maxRecvBufferSize,
                    std::move(enterCallback),
                    eventLoop);
            (void)isServerSide;
#ifdef BRYNET_USE_OPENSSL
            if(sslHelper != nullptr)
            {
                if (isServerSide)
                {
                    if (sslHelper->getOpenSSLCTX() == nullptr ||
                        !session->initAcceptSSL(sslHelper->getOpenSSLCTX()))
                    {
                        throw std::runtime_error("init ssl failed");
                    }
                }
                else
                {
                    if (!session->initConnectSSL())
                    {
                        throw std::runtime_error("init ssl failed");
                    }
                }
            }
#else
            if (sslHelper != nullptr)
            {
                throw std::runtime_error("not enable ssl");
            }
#endif

            eventLoop->runAsyncFunctor([session]()
                                       {
                                           session->onEnterEventLoop();
                                       });
            return session;
        }

        const EventLoop::Ptr& getEventLoop() const
        {
            return mEventLoop;
        }

        //TODO::如果所属EventLoop已经没有工作，则可能导致内存无限大，因为所投递的请求都没有得到处理

        void                            send(
            const char* buffer, 
            size_t len, 
            PacketSendedCallback&& callback = nullptr)
        {
            send(makePacket(buffer, len), std::move(callback));
        }

        template<typename PacketType>
        void                            send(
            PacketType&& packet, 
            PacketSendedCallback&& 
            callback = nullptr)
        {
            auto packetCapture = std::forward<PacketType>(packet);
            auto callbackCapture = std::move(callback);
            auto sharedThis = shared_from_this();
            mEventLoop->runAsyncFunctor(
                [sharedThis, packetCapture, callbackCapture]() mutable {
                const auto len = packetCapture->size();
                sharedThis->mSendList.emplace_back(PendingPacket{
                    std::move(packetCapture), 
                    len, 
                    std::move(callbackCapture) });
                sharedThis->runAfterFlush();
                });
        }

        void                            setDataCallback(DataCallback&& cb)
        {
            auto sharedThis = shared_from_this();
            mEventLoop->runAsyncFunctor([sharedThis, cb]() mutable {
                sharedThis->mDataCallback = std::move(cb);
                sharedThis->processRecvMessage();
                });
        }
        void                            setDisConnectCallback(DisconnectedCallback&& cb)
        {
            auto sharedThis = shared_from_this();
            mEventLoop->runAsyncFunctor([sharedThis, cb]() mutable {
                sharedThis->mDisConnectCallback = std::move(cb);
                });
        }

        /* if checkTime is zero, will cancel check heartbeat */
        void                            setHeartBeat(std::chrono::nanoseconds checkTime)
        {
            auto sharedThis = shared_from_this();
            mEventLoop->runAsyncFunctor([sharedThis, checkTime]() {
                if (sharedThis->mTimer.lock() != nullptr)
                {
                    sharedThis->mTimer.lock()->cancel();
                    sharedThis->mTimer.reset();
                }

                sharedThis->mCheckTime = checkTime;
                sharedThis->startPingCheckTimer();
                });
        }

        void                            postDisConnect()
        {
            auto sharedThis = shared_from_this();
            mEventLoop->runAsyncFunctor([sharedThis]() {
                sharedThis->procCloseInLoop();
                });
        }

        void                            postShutdown()
        {
            auto sharedThis = shared_from_this();
            mEventLoop->runAsyncFunctor([sharedThis]() {
                sharedThis->mEventLoop->runFunctorAfterLoop([sharedThis]() {
                    sharedThis->procShutdownInLoop();
                    });
                });
        }

        const std::string& getIP() const
        {
            return mIP;
        }

        static  TcpConnection::PacketPtr  makePacket(const char* buffer, size_t len)
        {
            return std::make_shared<std::string>(buffer, len);
        }

    protected:
        TcpConnection(TcpSocket::Ptr socket,
            size_t maxRecvBufferSize,
            EnterCallback&& enterCallback,
            EventLoop::Ptr eventLoop) BRYNET_NOEXCEPT
            :
#ifdef BRYNET_PLATFORM_WINDOWS
            mOvlRecv(port::Win::OverlappedType::OverlappedRecv),
            mOvlSend(port::Win::OverlappedType::OverlappedSend),
            mPostClose(false),
#endif
            mIP(socket->getRemoteIP()),
            mSocket(std::move(socket)),
            mEventLoop(std::move(eventLoop)),
            mAlreadyClose(false),
            mMaxRecvBufferSize(maxRecvBufferSize),
            mEnterCallback(std::move(enterCallback))
        {
            mRecvData = false;
            mCheckTime = std::chrono::steady_clock::duration::zero();
            mIsPostFlush = false;

            mCanWrite = true;

#ifdef BRYNET_PLATFORM_WINDOWS
            mPostRecvCheck = false;
            mPostWriteCheck = false;
#endif
            growRecvBuffer();

#ifdef BRYNET_USE_OPENSSL
            mSSLCtx = nullptr;
            mSSL = nullptr;
            mIsHandsharked = false;
#endif
        }

        ~TcpConnection() BRYNET_NOEXCEPT override
        {
#ifdef BRYNET_USE_OPENSSL
            if (mSSL != nullptr)
            {
                SSL_free(mSSL);
                mSSL = nullptr;
            }
            if (mSSLCtx != nullptr)
            {
                SSL_CTX_free(mSSLCtx);
                mSSLCtx = nullptr;
            }
#endif

            if (mTimer.lock())
            {
                mTimer.lock()->cancel();
            }
        }

    private:
        void                            growRecvBuffer()
        {
            if (mRecvBuffer == nullptr)
            {
                mRecvBuffer.reset(brynet::base::buffer_new(std::min<size_t>(16 * 1024, mMaxRecvBufferSize)));
                mRecvBuffOriginSize = buffer_getsize(mRecvBuffer.get());
            }
            else
            {
                if (buffer_getsize(mRecvBuffer.get()) >= mMaxRecvBufferSize)
                {
                    return;
                }

                mCurrentTanhXDiff += 0.2;
                const auto newTanh = std::tanh(mCurrentTanhXDiff);
                const auto maxSizeDiff = mMaxRecvBufferSize - mRecvBuffOriginSize;
                const auto NewSize = mRecvBuffOriginSize + (maxSizeDiff * newTanh);

                assert(NewSize <= mMaxRecvBufferSize);
                std::unique_ptr<struct brynet::base::buffer_s, BufferDeleter> newBuffer(brynet::base::buffer_new(NewSize));
                buffer_write(newBuffer.get(),
                    buffer_getreadptr(mRecvBuffer.get()),
                    buffer_getreadvalidcount(mRecvBuffer.get()));
                mRecvBuffer = std::move(newBuffer);
            }
        }

        /* must called in network thread */
        bool                            onEnterEventLoop()
        {
            assert(mEventLoop->isInLoopThread());
            if (!mEventLoop->isInLoopThread())
            {
                return false;
            }

            if (!brynet::net::base::SocketNonblock(mSocket->getFD()) ||
                !mEventLoop->linkChannel(mSocket->getFD(), this))
            {
                return false;
            }

            const auto findRet = mEventLoop->getTcpConnection(mSocket->getFD());
            (void)findRet;
            assert(findRet == nullptr);

#ifdef BRYNET_USE_OPENSSL
            if (mSSL != nullptr)
            {
                mEventLoop->addTcpConnection(mSocket->getFD(), shared_from_this());
                processSSLHandshake();
                return true;
            }
#endif

            if (!checkRead())
            {
                return false;
            }

            mEventLoop->addTcpConnection(mSocket->getFD(), shared_from_this());
            causeEnterCallback();

            return true;
        }

#ifdef BRYNET_USE_OPENSSL
            bool                            initAcceptSSL(SSL_CTX* ctx)
        {
            if (mSSL != nullptr)
            {
                return false;
            }

            mSSL = SSL_new(ctx);
            if (SSL_set_fd(mSSL, mSocket->getFD()) != 1)
            {
                ERR_print_errors_fp(stdout);
                ::fflush(stdout);
                return false;
            }

            return true;
        }
        bool                            initConnectSSL()
        {
            if (mSSLCtx != nullptr)
            {
                return false;
            }

            mSSLCtx = SSL_CTX_new(SSLv23_client_method());
            mSSL = SSL_new(mSSLCtx);

            if (SSL_set_fd(mSSL, mSocket->getFD()) != 1)
            {
                ERR_print_errors_fp(stdout);
                ::fflush(stdout);
                return false;
            }

            return true;
        }
#endif

        void                            pingCheck()
        {
            mTimer.reset();
            if (mRecvData)
            {
                mRecvData = false;
                startPingCheckTimer();
            }
            else
            {
                procCloseInLoop();
            }
        }

        void                            startPingCheckTimer()
        {
            if (!mTimer.lock() && 
                mCheckTime != std::chrono::steady_clock::duration::zero())
            {
                std::weak_ptr<TcpConnection> weakedThis = shared_from_this();
                mTimer = mEventLoop->runAfter(mCheckTime, [weakedThis]() {
                    auto sharedThis = weakedThis.lock();
                    if (sharedThis != nullptr)
                    {
                        sharedThis->pingCheck();
                    }
                    });
            }
        }

        void                            canRecv() override
        {
#ifdef BRYNET_PLATFORM_WINDOWS
            mPostRecvCheck = false;
            if (mPostClose)
            {
                if (!mPostWriteCheck)
                {
                    onClose();
                }
                return;
            }
#elif defined BRYNET_PLATFORM_LINUX || defined BRYNET_PLATFORM_DARWIN
            if (mAlreadyClose)
            {
                return;
            }
#endif

#ifdef BRYNET_USE_OPENSSL
            if (mSSL != nullptr
                && !mIsHandsharked
                && (!processSSLHandshake() || !mIsHandsharked))
            {
                return;
            }
#endif

            recv();
        }

        void                            canSend() override
        {
#ifdef BRYNET_PLATFORM_WINDOWS
            mPostWriteCheck = false;
            if (mPostClose)
            {
                if (!mPostRecvCheck)
                {
                    onClose();
                }
                return;
            }
#elif defined BRYNET_PLATFORM_LINUX || defined BRYNET_PLATFORM_DARWIN
            if (mAlreadyClose)
            {
                return;
            }
#endif
            mCanWrite = true;

#ifdef BRYNET_USE_OPENSSL
            if (mSSL != nullptr
                && !mIsHandsharked
                && (!processSSLHandshake() || !mIsHandsharked))
            {
                return;
            }
#endif

            runAfterFlush();
        }

        bool                            checkRead()
        {
            bool check_ret = true;
#ifdef BRYNET_PLATFORM_WINDOWS
            static CHAR temp[] = { 0 };
            static WSABUF  in_buf = { 0, temp };

            if (mPostRecvCheck)
            {
                return check_ret;
            }

            DWORD   dwBytes = 0;
            DWORD   flag = 0;
            const int ret = WSARecv(mSocket->getFD(), 
                &in_buf, 
                1, 
                &dwBytes, 
                &flag, 
                &(mOvlRecv.base), 
                0);
            if (ret == BRYNET_SOCKET_ERROR)
            {
                check_ret = (BRYNET_ERRNO == WSA_IO_PENDING);
            }

            if (check_ret)
            {
                mPostRecvCheck = true;
            }
#endif

            return check_ret;
        }

        bool                            checkWrite()
        {
            bool check_ret = true;
#ifdef BRYNET_PLATFORM_WINDOWS
            static WSABUF wsendbuf[1] = { {NULL, 0} };

            if (mPostWriteCheck)
            {
                return check_ret;
            }

            DWORD send_len = 0;
            const int ret = WSASend(mSocket->getFD(),
                wsendbuf, 
                1, 
                &send_len, 
                0, 
                &(mOvlSend.base), 
                0);
            if (ret == BRYNET_SOCKET_ERROR)
            {
                check_ret = (BRYNET_ERRNO == WSA_IO_PENDING);
            }

            if (check_ret)
            {
                mPostWriteCheck = true;
            }
#endif
            return check_ret;
        }


        void                            recv()
        {
            bool must_close = false;
#ifdef BRYNET_USE_OPENSSL
            const bool notInSSL = (mSSL == nullptr);
#else
            const bool notInSSL = false;
#endif

            while (true)
            {
                if (buffer_getwritevalidcount(mRecvBuffer.get()) == 0
                    || buffer_getreadvalidcount(mRecvBuffer.get()) == 0)
                {
                    buffer_adjustto_head(mRecvBuffer.get());
                }

                const auto tryRecvLen = buffer_getwritevalidcount(mRecvBuffer.get());
                if (tryRecvLen == 0)
                {
#ifdef BRYNET_PLATFORM_WINDOWS
                    checkRead();
#elif defined BRYNET_PLATFORM_LINUX || defined BRYNET_PLATFORM_DARWIN
                    //force recheck IN-OUT Event
                    recheckEvent();
#endif
                    break;
                }

                int retlen = 0;
#ifdef BRYNET_USE_OPENSSL
                if (mSSL != nullptr)
                {
                    retlen = SSL_read(mSSL, 
                        buffer_getwriteptr(mRecvBuffer.get()), tryRecvLen);
                }
                else
                {
                    retlen = ::recv(mSocket->getFD(), 
                        buffer_getwriteptr(mRecvBuffer.get()), tryRecvLen, 0);
                }
#else
                retlen = ::recv(mSocket->getFD(), 
                    buffer_getwriteptr(mRecvBuffer.get()), 
                    static_cast<int>(tryRecvLen), 
                    0);
#endif

                if (retlen == 0)
                {
                    must_close = true;
                    break;
                }
                else if (retlen < 0)
                {
#ifdef BRYNET_USE_OPENSSL
                    if ((mSSL != nullptr && 
                        SSL_get_error(mSSL, retlen) == SSL_ERROR_WANT_READ) ||
                        (BRYNET_ERRNO == BRYNET_EWOULDBLOCK))
                    {
                        must_close = !checkRead();
                    }
                    else
                    {
                        must_close = true;
                    }
#else
                    if (BRYNET_ERRNO != BRYNET_EWOULDBLOCK)
                    {
                        must_close = true;
                    }
                    else
                    {
                        must_close = !checkRead();
                    }
#endif
                    break;
                }

                mRecvData = true;
                buffer_addwritepos(mRecvBuffer.get(), static_cast<size_t>(retlen));
                if (buffer_getreadvalidcount(mRecvBuffer.get())
                    == buffer_getsize(mRecvBuffer.get()))
                {
                    growRecvBuffer();
                }

                if (notInSSL && retlen < static_cast<int>(tryRecvLen))
                {
                    must_close = !checkRead();
                    break;
                }
            }

            processRecvMessage();

            if (must_close)
            {
                procCloseInLoop();
            }
        }

        void                            flush()
        {
#ifdef BRYNET_PLATFORM_WINDOWS
            normalFlush();
#elif defined BRYNET_PLATFORM_LINUX || defined BRYNET_PLATFORM_DARWIN
#ifdef BRYNET_USE_OPENSSL
            if (mSSL != nullptr)
            {
                normalFlush();
            }
            else
            {
                quickFlush();
            }
#else
            quickFlush();
#endif
#endif
        }
        void                            normalFlush()
        {
#ifdef BRYNET_PLATFORM_WINDOWS
            static __declspec(thread) char* threadLocalSendBuf = nullptr;
#elif defined BRYNET_PLATFORM_LINUX || defined BRYNET_PLATFORM_DARWIN
            static __thread char* threadLocalSendBuf = nullptr;
#endif
            static  const   int SENDBUF_SIZE = 1024 * 32;
            if (threadLocalSendBuf == nullptr)
            {
                threadLocalSendBuf = (char*)malloc(SENDBUF_SIZE);
            }

#ifdef BRYNET_USE_OPENSSL
            const bool notInSSL = (mSSL == nullptr);
#else
            const bool notInSSL = false;
#endif

            bool must_close = false;

            while (!mSendList.empty() && mCanWrite)
            {
                char* sendptr = threadLocalSendBuf;
                size_t     wait_send_size = 0;

                for (auto it = mSendList.begin(); it != mSendList.end(); ++it)
                {
                    auto& packet = *it;
                    auto packetLeftBuf = (char*)(packet.data->c_str() + (packet.data->size() - packet.left));
                    const auto packetLeftLen = packet.left;

                    if ((wait_send_size + packetLeftLen) > SENDBUF_SIZE)
                    {
                        if (it == mSendList.begin())
                        {
                            sendptr = packetLeftBuf;
                            wait_send_size = packetLeftLen;
                        }
                        break;
                    }

                    memcpy(sendptr + wait_send_size, packetLeftBuf, packetLeftLen);
                    wait_send_size += packetLeftLen;
                }

                if (wait_send_size == 0)
                {
                    break;
                }

                int send_retlen = 0;
#ifdef BRYNET_USE_OPENSSL
                if (mSSL != nullptr)
                {
                    send_retlen = SSL_write(mSSL, sendptr, wait_send_size);
                }
                else
                {
                    send_retlen = ::send(mSocket->getFD(), sendptr, wait_send_size, 0);
                }
#else
                send_retlen = ::send(mSocket->getFD(), sendptr, static_cast<int>(wait_send_size), 0);
#endif
                if (send_retlen <= 0)
                {

#ifdef BRYNET_USE_OPENSSL
                    if ((mSSL != nullptr && SSL_get_error(mSSL, send_retlen) == SSL_ERROR_WANT_WRITE) ||
                        (BRYNET_ERRNO == BRYNET_EWOULDBLOCK))
                    {
                        mCanWrite = false;
                        must_close = !checkWrite();
                    }
                    else
                    {
                        must_close = true;
                    }
#else
                    if (BRYNET_ERRNO == BRYNET_EWOULDBLOCK)
                    {
                        mCanWrite = false;
                        must_close = !checkWrite();
                    }
                    else
                    {
                        must_close = true;
                    }
#endif
                    break;
                }

                auto tmp_len = static_cast<size_t>(send_retlen);
                for (auto it = mSendList.begin(); it != mSendList.end();)
                {
                    auto& packet = *it;
                    if (packet.left > tmp_len)
                    {
                        packet.left -= tmp_len;
                        break;
                    }

                    tmp_len -= packet.left;
                    if (packet.mCompleteCallback != nullptr)
                    {
                        (packet.mCompleteCallback)();
                    }
                    it = mSendList.erase(it);
                }

                if (notInSSL && static_cast<size_t>(send_retlen) != wait_send_size)
                {
                    mCanWrite = false;
                    must_close = !checkWrite();
                    break;
                }
            }

            if (must_close)
            {
                procCloseInLoop();
            }
        }
#if defined BRYNET_PLATFORM_LINUX || defined BRYNET_PLATFORM_DARWIN
        void                            quickFlush()
        {
#ifndef MAX_IOVEC
            constexpr size_t MAX_IOVEC = 1024;
#endif

            struct iovec iov[MAX_IOVEC];
            bool must_close = false;

            while (!mSendList.empty() && mCanWrite)
            {
                size_t num = 0;
                size_t ready_send_len = 0;
                for (const auto& p : mSendList)
                {
                    iov[num].iov_base = (void*)(p.data->c_str() + (p.data->size() - p.left));
                    iov[num].iov_len = p.left;
                    ready_send_len += p.left;

                    num++;
                    if (num >= MAX_IOVEC)
                    {
                        break;
                    }
                }

                if (num == 0)
                {
                    break;
                }

                const int send_len = writev(mSocket->getFD(), iov, static_cast<int>(num));
                if (send_len <= 0)
                {
                    if (BRYNET_ERRNO == BRYNET_EWOULDBLOCK)
                    {
                        mCanWrite = false;
                        must_close = !checkWrite();
                    }
                    else
                    {
                        must_close = true;
                    }
                    break;
                }

                auto tmp_len = static_cast<size_t>(send_len);
                for (auto it = mSendList.begin(); it != mSendList.end();)
                {
                    PendingPacket& b = *it;
                    if (b.left > tmp_len)
                    {
                        b.left -= tmp_len;
                        break;
                    }

                    tmp_len -= b.left;
                    if (b.mCompleteCallback != nullptr)
                    {
                        b.mCompleteCallback();
                    }
                    it = mSendList.erase(it);
                }

                if (static_cast<size_t>(send_len) != ready_send_len)
                {
                    mCanWrite = false;
                    must_close = !checkWrite();
                    break;
                }
            }

            if (must_close)
            {
                procCloseInLoop();
            }
        }
#endif

        void                            onClose() override
        {
            if (mAlreadyClose)
            {
                return;
            }
            mAlreadyClose = true;

#if defined BRYNET_PLATFORM_LINUX || defined BRYNET_PLATFORM_DARWIN
            unregisterPollerEvent();
#endif

            assert(mEnterCallback == nullptr);
            auto callBack = mDisConnectCallback;
            auto sharedThis = shared_from_this();
            auto eventLoop = mEventLoop;
            std::shared_ptr<TcpSocket> socket = std::move(const_cast<TcpSocket::Ptr&&>(mSocket));
            mEventLoop->runFunctorAfterLoop([callBack,
                sharedThis,
                eventLoop,
                socket]() {
                    if (callBack != nullptr)
                    {
                        callBack(sharedThis);
                    }
                    auto tmp = eventLoop->getTcpConnection(socket->getFD());
                    assert(tmp == sharedThis);
                    if (tmp == sharedThis)
                    {
                        eventLoop->removeTcpConnection(socket->getFD());
                    }
                });

            mCanWrite = false;
            mDisConnectCallback = nullptr;
            mDataCallback = nullptr;
            mRecvBuffer = nullptr;
        }

        void                            procCloseInLoop()
        {
            mCanWrite = false;
#ifdef BRYNET_PLATFORM_WINDOWS
            if (mPostWriteCheck || mPostRecvCheck)
            {
                if (mPostClose)
                {
                    return;
                }
                mPostClose = true;
                //windows下立即关闭socket可能导致fd被另外的TcpConnection重用,而导致此对象在IOCP返回相关完成结果时内存已经释放
                if (mPostRecvCheck)
                {
                    CancelIoEx(HANDLE(mSocket->getFD()), &mOvlRecv.base);
                }
                if (mPostWriteCheck)
                {
                    CancelIoEx(HANDLE(mSocket->getFD()), &mOvlSend.base);
                }
            }
            else
            {
                onClose();
            }
#elif defined BRYNET_PLATFORM_LINUX
            onClose();
#elif defined BRYNET_PLATFORM_DARWIN
            onClose();
#endif
        }

        void                            procShutdownInLoop()
        {
            mCanWrite = false;
            if (mSocket != nullptr)
            {
#ifdef BRYNET_PLATFORM_WINDOWS
                shutdown(mSocket->getFD(), SD_SEND);
#elif defined BRYNET_PLATFORM_LINUX || defined BRYNET_PLATFORM_DARWIN
                shutdown(mSocket->getFD(), SHUT_WR);
#endif
            }
        }

        void                            runAfterFlush()
        {
            if (!mIsPostFlush && !mSendList.empty() && mCanWrite)
            {
                auto sharedThis = shared_from_this();
                mEventLoop->runFunctorAfterLoop([sharedThis]() {
                    sharedThis->mIsPostFlush = false;
                    sharedThis->flush();
                    });

                mIsPostFlush = true;
            }
        }
#if defined BRYNET_PLATFORM_LINUX || defined BRYNET_PLATFORM_DARWIN
        void                            recheckEvent()
        {
#ifdef BRYNET_PLATFORM_LINUX
            struct epoll_event ev = { 0, { nullptr } };
            ev.events = EPOLLET | EPOLLIN | EPOLLOUT | EPOLLRDHUP;
            ev.data.ptr = (Channel*)(this);
            epoll_ctl(mEventLoop->getEpollHandle(), EPOLL_CTL_MOD, mSocket->getFD(), &ev);
#elif defined BRYNET_PLATFORM_DARWIN
            struct kevent ev[2];
            memset(&ev, 0, sizeof(ev));
            int n = 0;
            EV_SET(&ev[n++], mSocket->getFD(), EVFILT_READ, EV_ENABLE, 0, 0, (Channel*)(this));
            EV_SET(&ev[n++], mSocket->getFD(), EVFILT_WRITE, EV_ENABLE, 0, 0, (Channel*)(this));

            struct timespec now = { 0, 0 };
            kevent(mEventLoop->getKqueueHandle(), ev, n, NULL, 0, &now);
#endif
        }
        void                            unregisterPollerEvent()
        {
#ifdef BRYNET_PLATFORM_LINUX
            struct epoll_event ev = { 0, { nullptr } };
            epoll_ctl(mEventLoop->getEpollHandle(), EPOLL_CTL_DEL, mSocket->getFD(), &ev);
#elif defined BRYNET_PLATFORM_DARWIN
            struct kevent ev[2];
            memset(&ev, 0, sizeof(ev));
            int n = 0;
            EV_SET(&ev[n++], mSocket->getFD(), EVFILT_READ, EV_DELETE, 0, 0, NULL);
            EV_SET(&ev[n++], mSocket->getFD(), EVFILT_WRITE, EV_DELETE, 0, 0, NULL);

            struct timespec now = { 0, 0 };
            kevent(mEventLoop->getKqueueHandle(), ev, n, NULL, 0, &now);
#endif
        }
#endif
#ifdef BRYNET_USE_OPENSSL
        bool                            processSSLHandshake()
        {
            if (mIsHandsharked)
            {
                return true;
            }

            bool mustClose = false;
            int ret = 0;

            if (mSSLCtx != nullptr)
            {
                ret = SSL_connect(mSSL);
            }
            else
            {
                ret = SSL_accept(mSSL);
            }

            if (ret == 1)
            {
                mIsHandsharked = true;
                if (checkRead())
                {
                    causeEnterCallback();
                }
                else
                {
                    mustClose = true;
                }
            }
            else if (ret == 0)
            {
                mustClose = true;
            }
            else if (ret < 0)
            {
                int err = SSL_get_error(mSSL, ret);
                if (err == SSL_ERROR_WANT_WRITE || err == SSL_ERROR_WANT_READ)
                {
                    if (!checkRead())
                    {
                        mustClose = true;
                    }
                }
                else
                {
                    mustClose = true;
                }
            }

            if (mustClose)
            {
                causeEnterCallback();
                procCloseInLoop();
                return false;
            }
            return true;
        }
#endif
        void                            causeEnterCallback()
        {
            assert(mEventLoop->isInLoopThread());
            if (mEventLoop->isInLoopThread() && mEnterCallback != nullptr)
            {
                auto tmp = mEnterCallback;
                mEnterCallback = nullptr;
                tmp(shared_from_this());
            }
        }

        void                            processRecvMessage()
        {
            if (mDataCallback != nullptr && buffer_getreadvalidcount(mRecvBuffer.get()) > 0)
            {
                const auto proclen = mDataCallback(buffer_getreadptr(mRecvBuffer.get()),
                    buffer_getreadvalidcount(mRecvBuffer.get()));
                assert(proclen <= buffer_getreadvalidcount(mRecvBuffer.get()));
                if (proclen <= buffer_getreadvalidcount(mRecvBuffer.get()))
                {
                    buffer_addreadpos(mRecvBuffer.get(), proclen);
                }
            }
        }

    private:

#ifdef BRYNET_PLATFORM_WINDOWS
        struct port::Win::OverlappedExt mOvlRecv;
        struct port::Win::OverlappedExt mOvlSend;

        bool                            mPostRecvCheck;
        bool                            mPostWriteCheck;
        bool                            mPostClose;
#endif
        const std::string               mIP;
        const TcpSocket::Ptr            mSocket;
        const EventLoop::Ptr            mEventLoop;
        bool                            mCanWrite;
        bool                            mAlreadyClose;

        class BufferDeleter
        {
        public:
            void operator()(struct brynet::base::buffer_s* ptr) const
            {
                brynet::base::buffer_delete(ptr);
            }
        };
        std::unique_ptr<struct brynet::base::buffer_s, BufferDeleter> mRecvBuffer;
        double                          mCurrentTanhXDiff = 0;
        size_t                          mRecvBuffOriginSize = 0;
        const size_t                    mMaxRecvBufferSize;

        struct PendingPacket
        {
            PacketPtr  data;
            size_t      left;
            PacketSendedCallback  mCompleteCallback;
        };

        using PacketListType = std::deque<PendingPacket>;
        PacketListType                  mSendList;

        EnterCallback                   mEnterCallback;
        DataCallback                    mDataCallback;
        DisconnectedCallback            mDisConnectCallback;

        bool                            mIsPostFlush;

#ifdef BRYNET_USE_OPENSSL
        SSL_CTX*                        mSSLCtx;
        SSL*                            mSSL;
        bool                            mIsHandsharked;
#endif
        bool                            mRecvData;
        std::chrono::nanoseconds        mCheckTime{};
        brynet::base::Timer::WeakPtr    mTimer;
    };

} }
